Modeling of junction temperature and forward voltage of LED devices with externally measurable variables

Junction temperature (T j ) and forward voltage (V F ) of LED devices are two critical LED variables that are not easily obtained in an LED system. While T j affects reliability and lifetime, V F affects the power for a given current. This paper includes the modeling of T j and V F based on external...

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Hauptverfasser: Xuehui Tao, Huanting Chen, Hui, S. Y.
Format: Tagungsbericht
Sprache:eng
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Zusammenfassung:Junction temperature (T j ) and forward voltage (V F ) of LED devices are two critical LED variables that are not easily obtained in an LED system. While T j affects reliability and lifetime, V F affects the power for a given current. This paper includes the modeling of T j and V F based on externally measurable parameters such as heatsink temperature (Ths) and LED forward current (I F ). Based on the I-V electrical characteristics, the modeling of T j is related to the forward current and does not need the information of V F . The modeling of V F is associated with forward current and heat sink temperature instead of junction temperature. Designers can therefore estimate the V F by measuring the forward current I F and T hs , thus avoid the inconvenience of measurement of junction temperature. The established theoretical models for T j and V F are verified by testing several kinds of LEDs. Very good agreements between the theoretical and practical results have been obtained.
ISSN:2329-3721
2329-3748
DOI:10.1109/ECCE.2012.6342246